https://blog.csdn.net/liuzhezhe111/article/details/82154673
理解Qt消息机制刻不容缓,那我们从对比传统的windows消息处理机制对比来说起;
只有知道QT底层的消息处理、对我们理解并学习Qt有很大帮助;
下面我将对windows程序与Qt对比,并在核心代码处并给出注释进行对比、方便学习。
注意重点看代码中的注视进行对比:!
注意重点看代码中的注视进行对比:!
注意重点看代码中的注视进行对比:!
一:windows程序的消息处理
windows程序的处理大概一致
如下:
1.0 windows 消息处理机制:
int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance,
PSTR szCmdLine, int iCmdShow)
{
static TCHAR szAppName[] = TEXT("Hello");
HWND hwnd;
MSG msg;
WNDCLASS wndclass;
//fill wndclass
wndclass.lpfnWndProc = WndProc;
...
RegisterClass(&wndclass);
hwnd = CreateWindow( .... ); // creation parameters
ShowWindow(hwnd, iCmdShow);
UpdateWindow(hwnd);
while(GetMessage(&msg, NULL, 0, 0)) { //这一块位置得到消息
TranslateMessage(&msg);//转换消息
DispatchMessage(&msg);//分发消息到系统处理
}
return msg.wParam;
}
1.1 这是分发消息的回调函数熟悉windows程序应该不难看懂
LRESULT CALLBACK WndProc(HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
{
HDC hdc;
PAINTSTRUCT ps;
RECT rect;
switch(message) {
case WM_CREATE:
return 0;
case WM_PAINT://重绘、比如窗口大小拉伸
...
return 0;
case WM_DESTROY:
PostQuitMessage(0);
return 0;
}
return DefWindowProc(hwnd, message, wParam, lParam); // windows 操作系统内部的消息机制、系统调用函数;
}
二 Qt消息处理机制
2.0 Qt的消息机制
QEventDispatcherWin32:
注册窗口类别,并创建一个隐藏窗口 (QEventDispatcherWin32_Internal_WidgetXXXX)
窗口的回调函数 qt_internal_proc()
安装WH_GETMESSAGE类型的钩子函数 qt_GetMessageHook()
bool QEventDispatcherWin32::processEvents(QEventLoop::ProcessEventsFlags flags)
if (!filterNativeEvent(QByteArrayLiteral("windows_generic_MSG"), &msg, 0)) 与上面的消息循环:的while一样 、得到过滤所有消息
{
TranslateMessage(&msg);//转换消息
DispatchMessage(&msg); //分发消息
}
DispatchMessage(&msg); //分发消息
分发消息的或回调函数、这个与windows程序的CALLBACK WndProc一样
LRESULT QT_WIN_CALLBACK qt_internal_proc(HWND hwnd, UINT message, WPARAM wp, LPARAM lp)
2.1 下面就是从系统获得的消息后Qt封装消息后所作的事情
这个就是Qt的消息回调:
LRESULT QT_WIN_CALLBACK qt_internal_proc(HWND hwnd, UINT message, WPARAM wp, LPARAM lp)
{
if (message == WM_NCCREATE)
return true;
// MSG windows 消息结构:
MSG msg;
msg.hwnd = hwnd;
msg.message = message;
msg.wParam = wp;
msg.lParam = lp;
QAbstractEventDispatcher* dispatcher = QAbstractEventDispatcher::instance();
long result;
if (!dispatcher) {
if (message == WM_TIMER)
KillTimer(hwnd, wp);
return 0;
} else if (dispatcher->filterNativeEvent(QByteArrayLiteral("windows_dispatcher_MSG"), &msg, &result)) {
return result;
}
#ifdef GWLP_USERDATA
QEventDispatcherWin32 *q = (QEventDispatcherWin32 *) GetWindowLongPtr(hwnd, GWLP_USERDATA);
#else
QEventDispatcherWin32 *q = (QEventDispatcherWin32 *) GetWindowLong(hwnd, GWL_USERDATA);
#endif
QEventDispatcherWin32Private *d = 0;
if (q != 0)
d = q->d_func();
// 下面 WM_QT_SOCKETNOTIFIER socket Qt 事件底层的处理机制、处理网络的消息事件
if (message == WM_QT_SOCKETNOTIFIER) {
// socket notifier message
int type = -1;
switch (WSAGETSELECTEVENT(lp)) { //在非阻塞模式下利用socket事件的消息机制,Server端与Client端之间的通信处于异步状态下
case FD_READ: //socket 文件描述符 read 、有数据到达时发生
case FD_ACCEPT: //socket 文件描述符 接收连接 、 作为客户端连接成功时发生
type = 0;
break;
case FD_WRITE: //socket 文件描述符写 、有数据发送时产生
case FD_CONNECT: //socket 文件描述符发起连接 、 作为服务端等待连接成功时发生
type = 1;
break;
case FD_OOB: //socket 文件描述符收到数据 、 收到外带数据时发生
type = 2;
break;
case FD_CLOSE: //socket 文件描述符关闭断开连接 、套接口关闭时发生
type = 3;
break;
}
if (type >= 0) {
Q_ASSERT(d != 0);
QSNDict *sn_vec[4] = { &d->sn_read, &d->sn_write, &d->sn_except, &d->sn_read };
QSNDict *dict = sn_vec[type];
QSockNot *sn = dict ? dict->value(wp) : 0;
if (sn == nullptr) {
d->postActivateSocketNotifiers();
} else {
Q_ASSERT(d->active_fd.contains(sn->fd));
QSockFd &sd = d->active_fd[sn->fd];
if (sd.selected) {
Q_ASSERT(sd.mask == 0);
d->doWsaAsyncSelect(sn->fd, 0);
sd.selected = false;
}
d->postActivateSocketNotifiers();
// Ignore the message if a notification with the same type was
// received previously. Suppressed message is definitely spurious.
const long eventCode = WSAGETSELECTEVENT(lp);
if ((sd.mask & eventCode) != eventCode) {
sd.mask |= eventCode;
QEvent event(type < 3 ? QEvent::SockAct : QEvent::SockClose);
QCoreApplication::sendEvent(sn->obj, &event);
}
}
}
return 0;
} else if (message == WM_QT_ACTIVATENOTIFIERS) { // 处理postEvent事件
Q_ASSERT(d != 0);
// postEvent() 事件,因为是队列的存储的方式,邮递发送消息、直接返回
// Postpone activation if we have unhandled socket notifier messages
// in the queue. WM_QT_ACTIVATENOTIFIERS will be posted again as a result of
// event processing.
MSG msg;//异步调用
if (!PeekMessage(&msg, d->internalHwnd,
WM_QT_SOCKETNOTIFIER, WM_QT_SOCKETNOTIFIER, PM_NOREMOVE)
&& d->queuedSocketEvents.isEmpty()) { //
d->queuedSocketEvents
消息队列如果消息有很多的时候都会加入这个队列、这个就是关于Qt::connect();参数:地址
// register all socket notifiers
for (QSFDict::iterator it = d->active_fd.begin(), end = d->active_fd.end();
it != end; ++it) {
QSockFd &sd = it.value();
if (!sd.selected) {
d->doWsaAsyncSelect(it.key(), sd.event);
// allow any event to be accepted
sd.mask = 0;
sd.selected = true;
}
}
}
d->activateNotifiersPosted = false;
return 0;
} else if (message == WM_QT_SENDPOSTEDEVENTS // 处理 Qt sendPostEvent()发送事件
// we also use a Windows timer to send posted events when the message queue is full
// WM_QT_SENDPOSTEDEVENTS : 这个消息是我们Qt程序大部分走的事件,特殊情况除外。
|| (message == WM_TIMER
&& d->sendPostedEventsWindowsTimerId != 0
&& wp == (uint)d->sendPostedEventsWindowsTimerId)) {
const int localSerialNumber = d->serialNumber.load();
if (localSerialNumber != d->lastSerialNumber) {
d->lastSerialNumber = localSerialNumber;
q->sendPostedEvents();//因为sendevent是同步所以直接进入进行调用
}
return 0;
} else if (message == WM_TIMER) {//系统定时器超时
Q_ASSERT(d != 0);
d->sendTimerEvent(wp);
return 0;
}
return DefWindowProc(hwnd, message, wp, lp); // 这个与windows程序一样的地方。
}
另外还有一点很重要的:大家都知道Qt消息处理比windows处理的块,Qt程序通过一通处理才调用DefWindowProc传给系统所以Qt系统的消息机制是比windows的消息慢的原因之一;
不过他也有它优点:qt的信号与槽函数让我们让我们编程更方便。
2.3 消息全局通知事件
另外我们都知道我们开发的系统、所有的消息都会到这个类QApplication::notify事件过滤所有的事件:
其实QApplication继承QGuiApplication类;
bool QGuiApplication::notify(QObject *object, QEvent *event)
{
if (object->isWindowType())
QGuiApplicationPrivate::sendQWindowEventToQPlatformWindow(static_cast<QWindow *>(object), event);
return QCoreApplication::notify(object, event);
}
2.4 消息的组装
下面是所有的消息类型处理:在我们开发的系统中别人使用processEvent发送消息是比较高效的。
原因:这个消息直达经过的处理的少。
void QGuiApplicationPrivate::processWindowSystemEvent(QWindowSystemInterfacePrivate::WindowSystemEvent *e)
{
switch(e->type) {
case QWindowSystemInterfacePrivate::FrameStrutMouse:
case QWindowSystemInterfacePrivate::Mouse:
QGuiApplicationPrivate::processMouseEvent(static_cast<QWindowSystemInterfacePrivate::MouseEvent *>(e));
break;
case QWindowSystemInterfacePrivate::Wheel:
QGuiApplicationPrivate::processWheelEvent(static_cast<QWindowSystemInterfacePrivate::WheelEvent *>(e));
break;
case QWindowSystemInterfacePrivate::Key:
QGuiApplicationPrivate::processKeyEvent(static_cast<QWindowSystemInterfacePrivate::KeyEvent *>(e));
break;
case QWindowSystemInterfacePrivate::Touch:
QGuiApplicationPrivate::processTouchEvent(static_cast<QWindowSystemInterfacePrivate::TouchEvent *>(e));
break;
case QWindowSystemInterfacePrivate::GeometryChange:
QGuiApplicationPrivate::processGeometryChangeEvent(static_cast<QWindowSystemInterfacePrivate::GeometryChangeEvent*>(e));
break;
case QWindowSystemInterfacePrivate::Enter:
QGuiApplicationPrivate::processEnterEvent(static_cast<QWindowSystemInterfacePrivate::EnterEvent *>(e));
break;
case QWindowSystemInterfacePrivate::Leave:
QGuiApplicationPrivate::processLeaveEvent(static_cast<QWindowSystemInterfacePrivate::LeaveEvent *>(e));
break;
case QWindowSystemInterfacePrivate::ActivatedWindow:
QGuiApplicationPrivate::processActivatedEvent(static_cast<QWindowSystemInterfacePrivate::ActivatedWindowEvent
*>(e));
break;
case QWindowSystemInterfacePrivate::WindowStateChanged:
QGuiApplicationPrivate::processWindowStateChangedEvent(static_cast<QWindowSystemInterfacePrivate::WindowStateChangedEvent
*>(e));
break;
case QWindowSystemInterfacePrivate::WindowScreenChanged:
QGuiApplicationPrivate::processWindowScreenChangedEvent(static_cast<QWindowSystemInterfacePrivate::WindowScreenChangedEvent
*>(e));
break;
case QWindowSystemInterfacePrivate::ApplicationStateChanged: {
QWindowSystemInterfacePrivate::ApplicationStateChangedEvent *
changeEvent =
static_cast<QWindowSystemInterfacePrivate::ApplicationStateChangedEvent
*>(e);
QGuiApplicationPrivate::setApplicationState(changeEvent->newState, changeEvent->forcePropagate); }
break;
case QWindowSystemInterfacePrivate::FlushEvents: {
QWindowSystemInterfacePrivate::FlushEventsEvent *flushEventsEvent =
static_cast<QWindowSystemInterfacePrivate::FlushEventsEvent *>(e);
QWindowSystemInterface::deferredFlushWindowSystemEvents(flushEventsEvent->flags); }
break;
case QWindowSystemInterfacePrivate::Close:
QGuiApplicationPrivate::processCloseEvent(
static_cast<QWindowSystemInterfacePrivate::CloseEvent *>(e));
break;
case QWindowSystemInterfacePrivate::ScreenOrientation:
QGuiApplicationPrivate::reportScreenOrientationChange(
static_cast<QWindowSystemInterfacePrivate::ScreenOrientationEvent *>(e));
break;
case QWindowSystemInterfacePrivate::ScreenGeometry:
QGuiApplicationPrivate::reportGeometryChange(
static_cast<QWindowSystemInterfacePrivate::ScreenGeometryEvent *>(e));
break;
case QWindowSystemInterfacePrivate::ScreenLogicalDotsPerInch:
QGuiApplicationPrivate::reportLogicalDotsPerInchChange(
static_cast<QWindowSystemInterfacePrivate::ScreenLogicalDotsPerInchEvent *>(e));
break;
case QWindowSystemInterfacePrivate::ScreenRefreshRate:
QGuiApplicationPrivate::reportRefreshRateChange(
static_cast<QWindowSystemInterfacePrivate::ScreenRefreshRateEvent *>(e));
break;
case QWindowSystemInterfacePrivate::ThemeChange:
QGuiApplicationPrivate::processThemeChanged(
static_cast<QWindowSystemInterfacePrivate::ThemeChangeEvent *>(e));
break;
case QWindowSystemInterfacePrivate::Expose:
QGuiApplicationPrivate::processExposeEvent(static_cast<QWindowSystemInterfacePrivate::ExposeEvent *>(e));
break;
case QWindowSystemInterfacePrivate::Tablet:
QGuiApplicationPrivate::processTabletEvent(
static_cast<QWindowSystemInterfacePrivate::TabletEvent *>(e));
break;
case QWindowSystemInterfacePrivate::TabletEnterProximity:
QGuiApplicationPrivate::processTabletEnterProximityEvent(
static_cast<QWindowSystemInterfacePrivate::TabletEnterProximityEvent *>(e));
break;
case QWindowSystemInterfacePrivate::TabletLeaveProximity:
QGuiApplicationPrivate::processTabletLeaveProximityEvent(
static_cast<QWindowSystemInterfacePrivate::TabletLeaveProximityEvent *>(e));
break;
#ifndef QT_NO_GESTURES
case QWindowSystemInterfacePrivate::Gesture:
QGuiApplicationPrivate::processGestureEvent(
static_cast<QWindowSystemInterfacePrivate::GestureEvent *>(e));
break;
#endif
case QWindowSystemInterfacePrivate::PlatformPanel:
QGuiApplicationPrivate::processPlatformPanelEvent(
static_cast<QWindowSystemInterfacePrivate::PlatformPanelEvent *>(e));
break;
case QWindowSystemInterfacePrivate::FileOpen:
QGuiApplicationPrivate::processFileOpenEvent(
static_cast<QWindowSystemInterfacePrivate::FileOpenEvent *>(e));
break;
#ifndef QT_NO_CONTEXTMENU
case QWindowSystemInterfacePrivate::ContextMenu:
QGuiApplicationPrivate::processContextMenuEvent(
static_cast<QWindowSystemInterfacePrivate::ContextMenuEvent *>(e));
break;
#endif
case QWindowSystemInterfacePrivate::EnterWhatsThisMode:
QGuiApplication::postEvent(QGuiApplication::instance(), new QEvent(QEvent::EnterWhatsThisMode));
break;
default:
qWarning() << "Unknown user input event type:" << e->type;
break;
}
}
2.5 常用的消息过滤事件
通过2.4组装的消息最终到达、此处。经过这些之后:之前的windows消息现在都已映射为QT类型的消息、进入Qt消息处理机制中来、才有了我们的消息过滤等等消息事件键盘鼠标等等;
virtual void mouseDoubleClickEvent(QMouseEvent *event)
virtual void mouseMoveEvent(QMouseEvent *event)
virtual void mousePressEvent(QMouseEvent *event)
virtual void mouseReleaseEvent(QMouseEvent *event)
virtual void moveEvent(QMoveEvent *event)
virtual bool nativeEvent(const QByteArray &eventType, void *message, long *result)
virtual void paintEvent(QPaintEvent *event)
virtual void resizeEvent(QResizeEvent *event)
virtual void showEvent(QShowEvent *event)
virtual void tabletEvent(QTabletEvent *event)
virtual void wheelEvent(QWheelEvent *event)
重新实现上面的消息事件做我们的功能;
总结:
通过windows消息的运行机制与Qt的消息机制进行了对比。其实Qt在windows平台上的消息传递依赖的是windows消息机制。只不过在开始时进行注册消息拦截等一些封装处理、加工成Qt消息在Qt程序中进行传递。